Micro-dystrophin gene therapy prevents heart failure in an improved Duchenne muscular dystrophy cardiomyopathy mouse model
Zachary M. Howard, Lisa E. Dorn, Jeovanna Lowe, Megan D. Gertzen, Pierce Ciccone, Neha Rastogi, Guy L. Odom, Federica Accornero, Jeffrey S. Chamberlain, Jill A. Rafael-Fortney
Zachary M. Howard, Lisa E. Dorn, Jeovanna Lowe, Megan D. Gertzen, Pierce Ciccone, Neha Rastogi, Guy L. Odom, Federica Accornero, Jeffrey S. Chamberlain, Jill A. Rafael-Fortney
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Research Article Cardiology

Micro-dystrophin gene therapy prevents heart failure in an improved Duchenne muscular dystrophy cardiomyopathy mouse model

Abstract

Gene replacement for Duchenne muscular dystrophy (DMD) with micro-dystrophins has entered clinical trials, but efficacy in preventing heart failure is unknown. Although most patients with DMD die from heart failure, cardiomyopathy is undetectable until the teens, so efficacy from trials in young boys will be unknown for a decade. Available DMD animal models were sufficient to demonstrate micro-dystrophin efficacy on earlier onset skeletal muscle pathology underlying loss of ambulation and respiratory insufficiency in patients. However, no mouse models progressed into heart failure, and dog models showed highly variable progression insufficient to evaluate efficacy of micro-dystrophin or other therapies on DMD heart failure. To overcome this barrier, we have generated the first DMD mouse model to our knowledge that reproducibly progresses into heart failure. This model shows cardiac inflammation and fibrosis occur prior to reduced function. Fibrosis does not continue to accumulate, but inflammation persists after function declines. We used this model to test micro-dystrophin gene therapy efficacy on heart failure prevention for the first time. Micro-dystrophin prevented declines in cardiac function and prohibited onset of inflammation and fibrosis. This model will allow identification of committed pathogenic steps to heart failure and testing of genetic and nongenetic therapies to optimize cardiac care for patients with DMD.

Authors

Zachary M. Howard, Lisa E. Dorn, Jeovanna Lowe, Megan D. Gertzen, Pierce Ciccone, Neha Rastogi, Guy L. Odom, Federica Accornero, Jeffrey S. Chamberlain, Jill A. Rafael-Fortney

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Figure 2

Cardiac fibrosis and inflammation is higher in Fiona/dko compared with Het mice.

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Cardiac fibrosis and inflammation is higher in Fiona/dko compared with H...
(A) Representative composite images of transverse heart sections through the ventricles from C57 wild-type controls and 12-month-old Het and Fiona/dko mice stained with hematoxylin and eosin (top) and zoomed images of left ventricular myocardium (bottom) corresponding to black boxes in the top panel. (B) Representative composite fibronectin immunofluorescence (red) images of heart sections from C57, Het (12 months), and Fiona/dko mice at 3, 6, 9, and 12 months of age (left). Zoomed images showing areas of scar formation corresponding to the areas boxed (white) in the left panels (right). Images shown are from samples near the mean for each age in C. (C) Quantification of fibrosis shown as percentage area of ventricular composite sections containing fibronectin staining (red). Percentage of fibronectin is higher in Fiona/dko compared with Het hearts at all time points, suggesting more scar formation in Fiona/dko mice. Statistical analysis performed with Student’s t test comparing groups at each time point (lines under x axes); **P ≤ 0.01 and ****P ≤ 0.0001. Dot plots display total n analyzed for each group at each age. (D) Representative images of CD11b immunohistochemical staining (brown) of myeloid immune cells in C57 and in 3-, 6-, 9-, and 12-month-old Het and Fiona/dko heart sections. Images shown are from samples near the mean for each age in E. (E) Quantification of CD11b myeloid cell infiltrate staining shown as percentage area of ventricular composite sections shows more inflammation in Fiona/dko compared with Het hearts at all time points. Statistical analysis performed with Student’s t test; *P ≤ 0.05 and **P ≤ 0.01. Dot plots display total n analyzed for each group at each age. Scale bars: 600 μm, composites; 100 μm, zoomed.